DE102016210122A1 - Slip ring and slip ring unit with a slip ring - Google Patents

Abstract

The invention relates to a slip ring comprising a dielectric carrier body (1, 1 ') with a peripheral lateral surface (1.4) and radially oriented feedthroughs (1.1, 1.2) and a first conductor element (10.1) and a second conductor element (20.1). The conductor elements (10.1, 20.1) are arranged in a circumferential direction in a first section (10.11, 20.11) parallel to the axial offset (a) on the lateral surface (1.4) and run in a second section (10.12, 10.13, 20.12, 20.13) in FIG the bushings (1.1, 1.2) with radial direction component. The first sections (10.11, 20.11) extend in the circumferential direction in each case over a first angular range (α10, α20) of less than 360 °, so that along the circumferential direction of the conductor elements (10.1, 20.1) each in a second angular range (β10, β20 ) there is a discontinuity (u10, u20). Furthermore, the feedthroughs (1.1, 1.2) are arranged so that the second angle range (β10) of the first conductor element (10.1) is offset relative to the second angle range (β20) of the second conductor element (20.1) in the circumferential direction, wherein the first and the second conductor element (10.1, 20.1) are electrically connected to one another.

Description

FIELD OF TECHNOLOGY

The invention relates to a slip ring according to claim 1 and a slip ring unit comprising such a slip ring according to claim 10.

A slip ring unit usually comprises two component groups, namely a stator and a rotor. The stator often comprises at least one brush unit, whereas the rotor usually has a series of slip rings. In operation brushes of the brush units have sliding contact with the shell sides of the rotating slip rings. Such slip ring units are used in many technical fields to transmit electrical signals or electrical power from a stationary to a rotating electrical unit or in the opposite direction.

STATE OF THE ART

In the patent US 5224138 discloses a slip ring having a cylindrical carrier body made of insulating material, on the lateral surface of a conductor strip is arranged.

SUMMARY OF THE INVENTION

The invention has for its object to provide a slip ring for a slip ring unit, which is particularly suitable for the transmission of high-frequency currents or signals, while allowing a simple and economical production.

This object is achieved by the features of claim 1 and of claim 10.

Accordingly, the slip ring comprises a dielectric carrier body with a peripheral lateral surface and radially oriented passages which penetrate the lateral surface or the carrier body. Furthermore, the slip ring comprises a first and a second conductor element, wherein the conductor elements each have a first portion and a second portion. In the first section, the two conductor elements are arranged to extend in the circumferential direction parallel to the axial offset on the lateral surface. In the second section, the conductor elements run in the bushings with a radial direction component. In each case, the first section extends over a first angular range of less than 360 °, so that there is a discontinuity along the circumferential direction of the conductor elements in each case in a second angular range. Furthermore, the bushings are arranged such that the second angle range of the first conductor element is arranged offset relative to the second angle range of the second conductor element in the circumferential direction. The first and second conductor elements are electrically connected together. In particular, then the first and the second conductor element are assigned to one and the same track.

The first sections of the two conductor elements therefore extend parallel to the axial offset, in particular in circular arc form on the lateral surface in the circumferential direction, while the second sections of the conductor elements in the passages extend in particular in a straight line with a radial directional component.

The term lateral surface is to be understood below according to the geometric definition for a cylindrical body, wherein the slip ring can be configured cylindrical, in particular hollow cylindrical or annular. The lateral surface is in particular the peripheral outer surface of the slip ring, but it can also be understood below the circumferential inner surface under this term.

In particular, the first angle range and the second angle range along a circumferential line of a conductor element are dimensioned such that they extend in total over 360 °, ie over the full circumference.

The term discontinuity in the following means a point along a circumferential line, in which a conductor element at its outer diameter (in the case that the conductor elements are mounted on the outer lateral surface) or at its inner diameter (in the case that the conductor elements on the inner circumferential surface are mounted) does not rotate on the carrier body. In particular, the ends of the first portion of a conductor element are spaced by a gap or a shock. Thus, for example, discontinuity can also be understood here as a gap or impact.

Thus, the discontinuity extends over a central angle corresponding to the second angular range, which is calculated in particular by the formula 360 ° minus the first angular range of the first portion of the conductor element.

Advantageously, the lateral surface comprises a first and a second circumferential groove, wherein the first conductor element is arranged in the first groove and the second conductor element in the second groove.

In a further development of the invention, the slip ring on a third conductor element, which in a first section parallel with axial offset to the first and the second conductor element on the Jacket surface is arranged extending in the circumferential direction. In addition, the third conductor element extends with radial direction component in a second section in bushings. The first section extends over a first angular range of less than 360 °, so that there is a discontinuity along the circumferential direction of the third conductor element in each case in a second angular range or along the second angular range. Furthermore, the feedthroughs are arranged such that the second angle range of the third conductor element is offset relative to the second angle range of the first and / or the second conductor element in the circumferential direction, wherein the first, the second and the third conductor element are electrically connected to one another.

In an analogous manner, further conductor elements can be arranged on the carrier body, so that, for example, four or more conductor elements can be arranged in four or more grooves.

Advantageously, the first angular range extends over at least 270 °, in a further advantageous embodiment over at least 300 °, in particular over at least 340 °.

Alternatively, the slip ring can also be designed so that along a circumferential line a plurality of conductor elements are arranged in the circumferential direction lined up, so that occur along this circumferential line several discontinuities.

In a further embodiment of the invention is between the implementation of the first conductor element and the implementation of the second conductor element in the circumferential direction on the lateral surface a distance.

Advantageously, the conductor elements are each configured as a wire, which in particular has a cross section of less than 20 mm ² , in particular less than 10 mm ² , in particular less than 5 mm ² .

The wire can have a round cross-section, which can bring advantages in particular for the transmission of high-frequency signals.

Advantageously, the conductor elements are configured in one piece with their first and second sections.

Advantageously, the conductor elements are coated with a noble metal, for example gold.

According to a preferred construction, the electrical connection of the conductor elements is arranged radially inwardly with respect to the first section. In this construction, the conductor elements are arranged on the outer circumference of the carrier body.

In a further embodiment of the invention, the electrically interconnected conductor elements are associated with a track which is bounded by webs axially.

The invention also relates to a slip ring unit which comprises a corresponding slip ring and a brush unit with a brush. In the respective first section of a conductor element, the two conductor elements can be contacted in a sliding manner by the brush via the respective first angular region, wherein the first angular region extends over at least 270 °.

In an embodiment of the slip ring with three conductor elements, the slip ring unit can be configured such that at least two conductor elements in the respective first section of the relevant conductor element can be contacted in a sliding manner over the entire circumference by the brush.

Advantageously, the brush is made of a metal-containing material. In particular, from a non-carbonaceous material.

According to a preferred variant of the slip ring unit, the brush has a precious metal-containing, for example, gold-containing, surface.

The slip ring unit can in particular be constructed such that a conductor element can be doubly contacted by the brush. In this context, the brush advantageously has two free ends, each of which bears against one and the same conductor element with an offset in the circumferential direction. This arrangement can also be referred to as a double brush, which brings in particular a redundancy of the current or data transmission with it.

In a further embodiment of the invention, in particular those conductor elements which form a track in the first section axially surrounded by webs, which have a larger outer diameter for limiting the axial mobility of the brush as the first portion of the conductor elements.

The slip ring unit is used for the transmission of electrical power and / or electrical signals, so for the transmission of information.

By the slip ring according to the invention or by the slip ring unit according to the invention can transmit high-frequency signals in a relatively simple manner become. In particular, the special design of the slip ring proves advantageous in terms of a reduced electrical capacity.

Advantageous embodiments of the invention will remove the dependent claims.

Further details and advantages of the slip ring according to the invention or the slip ring unit according to the invention will become apparent from the following description of exemplary embodiments with reference to the accompanying figures.

BRIEF DESCRIPTION OF THE DRAWINGS

It show the

1 a perspective view of a slip ring unit,

2 a side view of the slip ring unit,

3 a detailed view of the lateral surface of the slip ring without conductor elements,

4 a detailed view of the carrier body of the slip ring without conductor elements as a sectional view,

5 a detailed view of the lateral surface of the slip ring with the conductor elements,

6 a detailed view of the slip ring with the conductor elements as a sectional view,

7 a detailed view of the slip ring unit with the conductor elements as a sectional view,

8th a detailed view of the slip ring with the conductor elements as a sectional view according to a second embodiment,

9 a detailed view of the slip ring unit with the conductor elements as a sectional view according to the second embodiment,

10 a detailed view of the slip ring unit with the conductor elements as a sectional view according to a third embodiment.

DESCRIPTION OF THE EMBODIMENTS

In the 1 and 2 a slip ring unit is shown, which is a dielectric carrier body 1 comprises, which is configured substantially annular and a brush unit 2 , Although the slip ring unit has a total of five tracks or channels for transmitting five different streams or signals, only two tracks or channels will be explained in detail below by way of example. Accordingly, the other of the tracks or channels are not provided with reference numerals.

On the carrier body 1 or on its lateral surface 1.4 are ladder elements 10.1 . 20.1 ; 10.2 . 20.2 arranged, wherein the conductor elements 10.1 . 20.1 a first track and the conductor elements 10.2 . 20.2 can be assigned to a second track. The brush unit 2 has several electrically conductive brushes 2.1 . 2.2 on, attached to a brush holder 2.3 are attached. In the illustrated embodiment, the brushes 2.1 . 2.2 each configured as wires in particular with a round cross-section, which are preferably coated with gold. The first brush 2.1 belongs to the first track and the second brush 2.2 to the second track.

The slip ring unit is designed so that upon relative rotation of the carrier body 1 or the conductor elements 10.1 . 20.1 ; 10.2 . 20.2 about an axis A, a power transmission, in particular a signal transmission between the conductor elements 10.1 . 20.1 ; 10.2 . 20.2 and the brushes 2.1 . 2.2 is possible. In the illustrated embodiment, a conductor element 10.1 . 20.1 ; 10.2 . 20.2 twice from a brush 2.1 . 2.2 contacted, because every brush 2.1 . 2.2 has two areas, each with a free end (double brush construction). The ends are within the elasticity of the brush 2.1 . 2.2 radially movable.

In the circumferential surface 1.4 of the carrier body 1 are grooves 1:41 . 1:42 incorporated, in the illustrated embodiment as a circumferential v-shaped grooves 1:41 . 1:42 are trained (see 3 and 4 ). Here are two grooves in the illustrated embodiment 1:41 . 1:42 provided for a track or a transmission channel. The throaty lines of the grooves 1:41 . 1:42 , ie those lines that arise at the places where the two surfaces of a groove 1:41 . 1:42 converge, are arranged at an axial distance a. The Kehllinien run perpendicular to the axis A in the circumferential direction. Axial between a pair of grooves 1:41 . 1:42 are webs 1:44 arranged.

In the carrier body 1 are, as in the 3 illustrated, radially oriented bushings 1.1 . 1.2 or holes arranged, which the lateral surface 1.4 penetrate, with the bushings 1.1 . 1.2 are arranged on the same circumference at a distance U. In the area of throat lines have the bushings 1.1 . 1.2 one recess each 1.11 . 1.21 on.

In the 5 is the same section of the slip ring as in 3 shown with the difference that in the 5 the ladder elements 10.1 . 20.1 the first track and the ladder elements 10.2 . 20.2 the second track on the carrier body 1 are mounted.

In the following, the detailed structure of the slip ring will be explained with reference to the first track. The material for the conductor elements 10.1 . 20.1 can be made available as a wound semi-finished, so that the slip ring is comparatively inexpensive and economical to produce. In the course of this assembly, the conductor elements 10.1 . 20.1 Correspondingly cut and bent so that the conductor elements 10.1 . 20.1 bent at their ends legs or second sections 10:12 . 10:13 . 20:12 . 20:13 exhibit ( 6 ).

Thereafter, the thus prepared conductor elements 10.1 . 20.1 into the grooves 1:41 . 1:42 placed. The second sections 10:12 . 10:13 . 20:12 . 20:13 be in the bushings 1.1 . 1.2 plugged in, leaving the second sections 10:12 . 10:13 . 20:12 . 20:13 or their ends radially inward from the carrier body 1 stick out ( 6 ). The ladder elements 10.1 . 20.1 each have a first section 10.1 . 20:11 on, which in the respective groove 1:41 . 1:42 in a circular arc around the axis A around in the circumferential direction, in particular, the radial outer contour of the first sections extends 10.1 . 20:11 along a circular arc. Through the recesses 1.11 . 1.21 is a tailor-made arrangement of the conductor elements 10.1 . 20.1 in the grooves 1:41 . 1:42 parallel with axial offset a possible.

After the ladder elements 10.1 . 20.1 on the carrier body 1 are arranged, the second sections 10:12 . 10:13 . 20:12 . 20:13 or the ends of the conductor elements 10.1 . 20.1 soldered together. This will be a first solder joint 40.1 generates the second sections 10:12 . 10:13 . 20:12 . 20:13 electrically and mechanically interconnects. In the 6 is the soldering point 40.1 indicated by a dotted line. Thus, the two conductor elements 10.1 . 20.1 the first track (that is between two bars 1:44 are arranged), by the soldering of the associated second sections 10:12 . 10:13 . 20:12 . 20:13 the same electrical potential. In later operation of the slip ring unit, the signal of a channel is applied to the conductor elements 10.1 . 20.1 at.

The remaining conductor elements 10.2 . 20.2 are mounted analogously.

The ladder elements 10.1 . 20.1 ; 10.2 . 20.2 are so in the grooves 1:41 . 1:42 arranged so that they each rotate in a wrap angle of less than 360 °. In other words, the first sections extend 10:11 . 20:11 the conductor elements 10.1 . 20.1 the first track in each case along a circumferential line over a first angular range α10, α20 of less than 360 ° (in this case 355 °). Accordingly, lies along the circumferential direction of these conductor elements 10.1 . 20.1 in each case in a second angular range β10, β20 a discontinuity u10, u20 or in each case a gap. The second angle ranges β10, β20 extend here over an angle of 5 °. In the exemplary embodiment presented, the first angle range α10, α20 in each case complements the second angle range β10, β20 to 360 °. Thus: α10 + β10 = 360 ° = α20 + β20.

Because of the bushings 1.1 . 1.2 are arranged so that the second angle range β10 of the first conductor element 10.1 relative to the second angular range β20 of the second conductor element 20.1 is arranged offset in the circumferential direction, is a permanent contact of the brush 1.1 the first track over a full revolution with at least one of the conductor elements 10.1 . 20.1 the first track possible.

Due to the staggered arrangement of the bushings 1.1 . 1.2 the conductor elements run 10.1 . 20.1 ; 10.2 . 20.2 in the grooves 1:41 . 1:42 in such a way that the respective discontinuities u of a track in the circumferential direction are offset by the dimension T offset from each other. The ladder elements 10.1 . 20.1 each have a first section 10.1 . 20:11 on which in the groove 1:41 . 1:42 in a circular arc around the axis A runs around, in particular, the radial outer contour of the first sections extends 10.1 . 20:11 (ie outside the discontinuity u10, u20) along a circular arc.

In the 7 is shown a detail view in which the brushes 2.1 . 2.2 in sliding contact with the conductor elements 10.1 . 20.1 respectively 10.2 . 20.2 are. The brushes 2.1 . 2.2 are each configured in the form of a comparatively elastic electrically conductive metal wire, wherein the surfaces of the brush 2.1 . 2.2 are gold plated. The brushes 2.1 . 2.2 dive with a partial cross section between the conductor elements 10.1 . 20.1 ; 10.2 . 20.2 so that during operation of the slip ring unit the brushes 2.1 . 2.2 can not shift in the axial direction. In particular, for example, in the first track is the brush 2.1 in the first part 10:11 the conductor elements 10.1 . 20.1 with both conductor elements 10.1 . 20.1 in electrical contact.

The slip ring unit is used for transmitting electrical signals, in particular high-frequency signals. The slip ring unit can transmit high data rates for example for Ethernet, Sercos data connections or other real-time data connections. In particular, the special construction ensures that the brushes 2.1 . 2.2 permanent contact with conductor elements 10.1 . 20.1 ; 10.2 . 20.2 to have. Further The new design is characterized by a comparatively small electrical capacity in the transmission path, so that even extremely high-frequency signals are transferable.

According to a second embodiment according to 8th 9, the first track comprises three grooves 1:41 . 1:42 . 1:43 in the lateral surface 1.4 of the carrier body 1' , In these grooves 1:41 . 1:42 . 1:43 are ladder elements 10.1 . 20.1 . 30.1 mounted in a similar manner as in the first embodiment. Accordingly, here are the conductor elements 10.1 . 20.1 . 30.1 so in the grooves 1:41 . 1:42 . 1:43 arranged to rotate in each case in a first angular range α10, α20, α30 of less than 360 °. This is due to the outer circumference of the respective conductor element 10.1 . 20.1 . 30.1 in a second angular range β10, β20, β30, a discontinuity u10, u20, u30 or a gap, respectively. By an offset arrangement of the bushings 1.1 . 1.2 . 1.3 in the carrier body 1' the conductor elements run 10.1 . 20.1 . 30.1 in the grooves 1:41 . 1:42 . 1:43 such that the respective discontinuities u10, u20, u30 are arranged offset in the circumferential direction with respect to one another.

The first track with the ladder elements 10.1 . 20.1 . 30.1 is opposite a neighboring second track through a bridge 1:44 separated. The first brush 2.1 ' includes two brush elements 2.1a ' . 2.1b ' , In the illustrated embodiment, the brush elements 2.1a ' . 2.1b ' each designed as wires in particular with a round cross-section, which are preferably coated with a noble metal such as gold.

According to the 10 in which a third embodiment is shown, the first track comprises three grooves 1:41 . 1:42 . 1:43 in the lateral surface 1.4 of the carrier body 1'' , In these grooves 1:41 . 1:42 . 1:43 are ladder elements 10.1 . 20.1 . 30.1 mounted in an analogous manner as in the first or second embodiment.

The first track with the ladder elements 10.1 . 20.1 . 30.1 is opposite a neighboring second track through a bridge 1:44 separated. The first brush 2.1 '' includes two brush elements soldered together 2.1a '' . 2.1b '' , In the illustrated embodiment, the first brush element 2.1a '' designed as a wire in particular with a round cross-section. At this first brush element 2.1a '' is the second brush element 2.1b '' befestifgt. This is designed substantially parallelepipedic and is made in particular of silver graphite. During operation of the slip ring unit, the first brush element is used 2.1a '' for the transmission of currents or signals and for the radial springing of the second brush element 2.1b '' to the conductor elements 10.1 . 20.1 . 30.1 , Through the bars 1:44 will also limit the movement of the second brush element 2.1b '' ensured in the axial direction.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• US 5224138 [0003]

Claims (15)

Slip ring comprising - a dielectric carrier body ( 1 ; 1' ) with a circumferential surface ( 1.4 ) and radially oriented bushings ( 1.1 . 1.2 ), which the lateral surface ( 1.4 ) and - a first conductor element ( 10.1 ) and a second conductor element ( 20.1 ), wherein the conductor elements ( 10.1 . 20.1 ) in a first section ( 10:11 . 20:11 ) parallel with axial offset (a) on the lateral surface ( 1.4 ) are arranged extending in the circumferential direction and in a second section ( 10:12 . 10:13 . 20:12 . 20:13 ) in the bushings ( 1.1 . 1.2 ) extend with radial direction component, wherein the first sections ( 10:11 . 20:11 ) in the circumferential direction in each case over a first angular range (α10, α20) of less than 360 °, so that along the circumferential direction of the conductor elements ( 10.1 . 20.1 ) in each case in a second angular range (β10, β20) a discontinuity (u10, u20) is present and further the feedthroughs ( 1.1 . 1.2 ) are arranged so that the second angle range (β10) of the first conductor element ( 10.1 ) relative to the second angular region (β20) of the second conductor element ( 20.1 ) is arranged offset in the circumferential direction, wherein the first and the second conductor element ( 10.1 . 20.1 ) are electrically connected together. Slip ring according to claim 1, wherein the lateral surface ( 1.4 ) a first and a second circumferential groove ( 1:41 . 1:42 ), wherein the first conductor element ( 10.1 ) in the first groove ( 1:41 ) is arranged and the second conductor element ( 20.1 ) in the second groove ( 1:42 ). Slip ring according to claim 1 or 2, wherein the slip ring is a third conductor element ( 30.1 ), which in a first section ( 30.11 ) in parallel with axial offset (a) to the first and the second conductor element ( 10.1 . 20.1 ) on the lateral surface ( 1.4 ) is arranged extending in the circumferential direction and in a second section ( 30.12 ) in bushings ( 1.3 ) with radial direction component, wherein the first section ( 30.11 ) extends over a first angular range (α30) of less than 360 °, so that along the circumferential direction of the third conductor element ( 30.1 ) in each case in a second angular range (β30) a discontinuity (u30) is present and further the bushings ( 1.3 ) are arranged so that the second angular range (β30) of the third conductor element ( 30.1 ) relative to the second angular range (β10, β20) of the first and / or the second conductor element ( 10.1 . 20.1 ) is arranged offset in the circumferential direction, wherein the first, the second and the third conductor element ( 10.1 . 20.1 . 30.1 ) are electrically connected together. Slip ring according to one of the preceding claims, wherein between the bushing ( 1.1 ) of the first conductor element ( 10.1 ) and the implementation ( 1.2 ) of the second conductor element ( 20.1 ) is present in the circumferential direction a distance (U). Slip ring according to one of the preceding claims, wherein the conductor elements ( 10.1 . 20.1 ) are each configured as a wire. A slip ring according to claim 5, wherein the wire has a cross-section of less than 20 mm ² . Slip ring according to one of the preceding claims, wherein the conductor elements ( 10.1 . 20.1 ) are each designed in one piece. Slip ring according to one of the preceding claims, wherein the electrical connection ( 40.1 ) of the conductor elements ( 10.1 . 20.1 ) with reference to the first section ( 10:11 . 20:11 ) is arranged radially inboard. Slip ring according to one of the preceding claims, wherein the electrically interconnected conductor elements ( 10.1 . 20.1 . 30.1 ) are assigned to a lane, which von Stegen ( 1:44 ) is axially limited. Slip ring unit comprising a slip ring according to one of claims 1 to 9 and a brush unit ( 2 ) with a brush ( 2.1 ; 2.1 '; 2.1 '' ), wherein the two conductor elements ( 10.1 . 20.1 ) in the first part ( 10:11 . 20:11 ) of the brush ( 2.1 ; 2.1 '; 2.1 '' ) are contactable in a grinding manner over the first angle range (α10, α20), the first angle range (α10, α20) being at least 270 °. Slip ring unit comprising a slip ring according to claims 3 to 9 and a brush unit ( 2 ) with a brush ( 2.1 '' ), whereby through the brush ( 2.1 '' ) at least two conductor elements ( 10.1 . 20.1 . 30.1 ) in the first part ( 10:11 . 20:11 . 30.11 ) can be contacted over the entire circumference. Slip ring unit according to claim 10 or 11, wherein the brush ( 2.1 ; 2.1 '; 2.1 '' ) is made of a metal-containing material. Slip ring unit according to one of claims 10 to 12, wherein the brush ( 2.1 ; 2.1 '; 2.1 '' ) has a precious metal-containing surface. Slip ring unit according to one of claims 10 to 13, wherein at least one conductor element ( 10.1 . 20.1 . 30.1 ) of the brush ( 2.1 ; 2.1 '; 2.1 '' ) is doubly contactable. Slip ring unit according to one of claims 10 to 14, wherein the conductor elements ( 10.1 . 20.1 . 30.1 ) in the first part ( 10:11 . 20:11 . 30.11 ) axially of webs ( 1:44 ) for limiting the axial mobility of the brush ( 2.1 ; 2.1 '; 2.1 '' ) are surrounded.

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